Expandable pontoon boat

ABSTRACT

A pontoon boat includes a center frame, a port side pontoon, and a starboard side pontoon. A plurality of telescoping assemblies connect the port side pontoon and the starboard side pontoon to the center frame. The telescoping assemblies are configured such that the port side pontoon and the starboard side pontoon are displaceable relative to the center section between a retracted position and an extended position.

CROSS-REFERENCES TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No. 16/178,770, filed Nov. 2, 2018, pending, which claims the benefit of U.S. Provisional Patent Application No. 62/583,667, filed Nov. 9, 2017, the entire contents of each of which are hereby incorporated by reference in this application.

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT

(NOT APPLICABLE)

BACKGROUND & SUMMARY

Pontoon boats are known in the art. A pontoon boat typically includes first and second pontoons, a plurality of cross members fixedly connecting the pontoons together, and a floor or deck disposed atop the cross members. The deck may support a captain's station, seating for passengers, and a railing about the perimeter of the deck.

A pontoon boat typically is generally rectangular, having a length and a width. The length may be selected as desired. The width, however, may be practically limited, for example, by transportation and storage considerations. More specifically, federal highway regulations generally limit the width of a trailer towed on public highways to 102″ and require special permits for towing trailers wider than that. These regulations effectively limit the width of a pontoon boat to 102″. Also, available space at a dock, on a boat lift, or at a dry storage facility may practically limit the width of a pontoon boat.

The present disclosure is directed to a pontoon boat having a variable width, and to operating mechanisms for varying the width of the boat.

BRIEF DESCRIPTION OF THE DRAWINGS

These and other aspects and advantages will be described in detail with reference to the accompanying drawings, in which:

FIG. 1A is a perspective view of an expandable pontoon boat according to the present disclosure in a collapsed configuration;

FIG. 1B is a perspective view of the expandable pontoon boat of FIG. 1A in an expanded configuration;

FIG. 2A is a perspective view of the expandable pontoon boat of FIG. 1A in a collapsed configuration with the decking removed for clarity;

FIG. 2B is a perspective view of the expandable pontoon boat of FIG. 1A in an expanded configuration with the decking removed for clarity;

FIG. 3A is a top plan view of the expandable pontoon boat of FIG. 1A in a collapsed configuration;

FIG. 3B is a top plan view of the expandable pontoon boat of FIG. 1A in an expanded configuration;

FIG. 4A is a top plan view of the expandable pontoon boat of FIG. 1A in a collapsed configuration with the decking removed for clarity;

FIG. 4B is a top plan view of the expandable pontoon boat of FIG. 1A in an expanded configuration with the decking removed for clarity;

FIG. 5 is a bottom plan view of the expandable pontoon boat of FIG. 1A in a collapsed configuration with the decking removed for clarity;

FIG. 6 is a side elevation view of the expandable pontoon boat of FIG. 1A in a collapsed configuration with the decking removed for clarity;

FIG. 7A is a rear elevation view of the expandable pontoon boat of FIG. 1A in a collapsed configuration;

FIG. 7B is a rear elevation view of the expandable pontoon boat of FIG. 1A in an expanded configuration; and

FIG. 8 is a cross-sectional end view of a telescoping assembly of the expandable pontoon boat of FIG. 1A showing wear pads disposed between inner and outer tubes thereof.

DETAILED DESCRIPTION

The drawings show an illustrative embodiment of a pontoon boat 10 according to the present disclosure. The pontoon boat 10 includes a center section 12, a first side (or port) section 14, and a second side (or starboard) section 14′.

The center section 12 includes a frame 18 and a center deck 20 overlying and connected to the frame. The frame 18 includes a first longitudinal main rail 22 and a second longitudinal main rail 24 spaced from and generally parallel to the first main rail. A plurality of spaced apart and generally parallel cross members 26 are fixedly connected to the first and second main rails 22, 24, for example, to respective upper surfaces of the main rails. As shown, each of the cross members 26 may be generally perpendicular to the first and second rails 22, 24. A first generally longitudinal side rail 28 is fixedly connected to each of the cross members 26 at or near respective first ends thereof, and a second generally longitudinal side rail 30 is fixedly connected to each of the cross members 26 at or near respective second ends thereof. As shown, the pontoon boat 10 also may include an optional center pontoon 16 associated with the center section 12.

The port section 14 and the starboard section 14′ may be mirror images of each other. As such, only the port section 14 will be discussed in detail herein.

The port section 14 includes an elongated first side (or port) pontoon 32, a plurality of first side (or port) pontoon mounting sleeves 34, a first side (or port) deck 36, a first side (or port) deck support 38, and a plurality of first side (or port) deck support brackets 39. The port pontoon 32 has a longitudinal axis and a peripheral surface extending generally the length of the port pontoon. Each of the port pontoon mounting sleeves 34 is connected to a corresponding upper portion of the peripheral surface of the port pontoon 32, either directly or through an intervening structure, for example a first side (or port) pontoon riser 33. As shown, each of the port pontoon mounting sleeves 34 may be embodied as a tube having a square cross section and a longitudinal axis generally perpendicular to the longitudinal axis of the port pontoon 32. In the embodiment shown, each of the port deck support brackets 39 is embodied as a bracket connected at a first end to a corresponding one of the port pontoon mounting sleeves 34, and at a second end to a first (or outboard) side of the port deck support 38. A first (or outboard) end of the port deck 36 may be connected to the port deck support 38. In other embodiments, any or all of the port deck support brackets 39 could be connected at the corresponding first ends thereof directly to the port pontoon 32 or to an intervening bracket or other structure. Also, any or all of the port deck support brackets 39 could be connected at the corresponding second ends thereof directly to the port deck 36, and the port deck support 38 could be omitted. Any or all of the port deck support brackets 39, the port deck support 38, the connection therebetween, or the connection between the port deck and the deck support brackets or the port deck support may be sufficiently flexible to allow for some articulation of the port deck 36 and port deck support 38 with respect to the port pontoon 32, as will be discussed further below.

As mentioned above, the starboard section 14′ is similarly configured. Components of the starboard section 14′ having counterparts in the port section 14 may be described herein using like terminology with reference to “second side” or “starboard” instead of “first side” or “port”, and they may be identified in the drawings using like but primed reference characters. For example, the starboard section 14′ is shown as including a starboard pontoon 32′ analogous to the port pontoon 32 and a plurality of starboard pontoon mounting sleeves 34′ analogous to the port pontoon mounting sleeves 34 attached thereto.

The port section 14 is connected to the center section 12 by a first telescoping assembly 40A proximate respective first (or forward) portions of the port section and the center section, and by a second telescoping assembly 40B proximate respective second (or rearward or aft) portions of the port section and the center section. The starboard section 14′ is connected to the center section 12 by a third telescoping assembly 40C proximate respective first (or forward) portions of the starboard section and the main section, and by a fourth telescoping assembly 40D proximate respective second (or rearward or aft) portions of the starboard section and the center section.

In the illustrated embodiment, the port section 14 is further connected to the center section 12 by a fifth telescoping assembly 40E intermediate the first telescoping assembly 40A and the second telescoping assembly 40B, and the starboard section 14′ is further connected to the center section by a sixth telescoping assembly 40F intermediate the third telescoping assembly 4C and the fourth telescoping assembly 40D. In other embodiments, either or both of the fifth telescoping assembly 40E and the sixth telescoping assembly 40F may be omitted. In further embodiments, one or more additional telescoping assemblies 40 n may be provided connecting either or both of the port section 14 and the starboard section 14′ to the center section 12.

The first, second, and fifth telescoping assemblies 40A, 40B, 40E may be substantially identical to each other, and the third, fourth, and sixth telescoping assemblies 40C, 40D, 40F may be substantially the mirror image of the first telescoping assembly 40A. As such, only the first telescoping assembly 40A will be described herein in detail. Components of the second, third, fourth, fifth, and sixth telescoping assemblies 40B, 40C, 40D, 40E, 40F having counterparts in the first telescoping assembly 40A may be described herein using like terminology, and they may be identified in the drawings by like reference characters with a corresponding alpha suffix.

The first telescoping assembly 40A includes an outer tube 52A and an inner tube (or ram) 54A slidingly received within the outer tube. In the embodiment shown, the outer tube 52A is fixedly connected to the underside of each of the first and second main rails 22, 24 of the frame 18 of the main section 12. The outer tube 52A may be connected to the first and second main rails 22, 24 directly or through one or more intervening structures. In the embodiment shown, the outer tube 52A spans substantially the entire width of the frame 18 of the main section 12. In other embodiments, the outer tube 52A may be connected to the first and second main rails 22, 24 in another manner, and it may span a greater or lesser portion of the width of the frame 18 of the main section 12. The inner tube 54A is fixedly connected to a corresponding port pontoon sleeve 34. For example, as shown, the inner tube 54A is slidingly received within the corresponding port pontoon sleeve 34 and fixedly connected thereto using mechanical fasteners or otherwise. Though fixedly connected to the port pontoon sleeve 34, the inner tube 54A may be readily removed therefrom, thereby facilitating removal and replacement of the inner tube 54A from the outer tube 52A as may be necessary from time to time for maintenance or other purposes. In an embodiment, the port pontoon sleeve 34 may be omitted, and the inner tube 54A may be connected to the port pontoon 32 or to respective port pontoon risers 33 directly.

As shown, each of the telescoping assemblies 40A, 40B, 40C, 40D, 40E, 40F is connected to the center section 12 at an angle to a plane defined by the center section 12 or the frame 18 or center deck 20 thereof so that the port pontoon 32 and the starboard pontoon 32′ may be extended both downwardly and outwardly from the center section, as will be discussed further below. As suggested above, spacers or other structures (not shown) may be disposed between the outer tubes 52 n of the telescoping assemblies 40 n and the main rails 22, 24 of the center section 12 to set the telescoping assemblies 40 n at the foregoing angle with respect to the center section.

In embodiments including the optional center pontoon 16, as shown, the center pontoon may be connected to respective outer surfaces of the outer tubes 52 of the telescoping assemblies 40A, 40B, 40C, 40D, 40E, 40F, either directly, or through intervening risers analogous to the port risers 33.

As shown in FIG. 8, a plurality of wear pads 56 may be disposed between the inner tube 54A and the outer tube 52A. The wear pads 56 may be attached to the inner tube 54A and bear against the outer tube 52A in sliding engagement therewith. Alternatively, one or more of the wear pads 56 may be attached to the outer tube 52A and bear against the inner tube 54A in sliding engagement therewith. In an embodiment, each of the inner tube 54A and the outer tube 52A may have a rectangular cross section defining four faces, each face being perpendicular to the two adjacent faces, and forty-eight (or more or fewer) wear pads 56 may be attached to the inner tube (twelve (or more or fewer) on each of the four faces of the inner tube), in sliding and bearing engagement with the corresponding interior faces of the outer tube. As shown, each of the wear pads 56 may be embodied as a button having a bearing portion and shaft portion, the shaft portion extending through and retained within a corresponding aperture extending through the corresponding one of the inner tube 54A and the outer tube 52A. Each of the wear pads 56 may be coated with a lubricious material or made of an inherently lubricious material or another material facilitating sliding of the inner tube 54A with respect to the outer tube 52A.

A first actuator 58A is operably associated with the first telescoping assembly 40A. The first actuator 58A is operable to extend the inner tube 54A of the first telescoping assembly 40A from, and retract the inner tube into, the outer tube 52A of the first telescoping assembly. A second actuator 58B is similarly operably associated with the second telescoping assembly 40B. A third actuator 58C is similarly operably associated with the third telescoping assembly 40C. A fourth actuator 58D is similarly operably associated with the fourth telescoping assembly 40D.

As best shown in FIGS. 4A and 4B, each of the first through fourth actuators 58A, 58B, 58C, 58D may be a linear actuator having a first end and a second end. For example, each of the first through fourth actuators 58A, 58B, 58C, 58D may be a linear hydraulic or pneumatic actuator.

In the illustrated embodiment, the first actuator 58A (the first actuator is partially obscured in the drawings) is a linear hydraulic actuator connected at its first end to the outer tube 52A and at its second end to the corresponding port pontoon mounting sleeve 34 (to which the inner tube 54A is operably connected). More specifically, the first actuator 58A may include a piston rod connected to a piston slidingly received within and telescopically extendable from and retractable into a cylinder. The free end of the piston rod may be connected to the corresponding port pontoon mounting sleeve 34, and the free end of the cylinder may be connected to the corresponding outer tube 52A. Such connections may be direct or through intervening brackets or other structures. The second, third and fourth actuators 58B, 58C, 58D may be similarly configured and installed between the inner and outer tubes 54 n, 52 n of the corresponding telescoping assemblies 40B, 40C, 40D.

In the illustrated embodiment, each of the fifth and sixth telescoping assemblies 40E, 40F is passive. That is, each of the fifth and sixth telescoping assemblies 40E, 40F lacks an actuator operably connected between the corresponding outer and inner tubes 52 n, 54 n thereof for driving the inner tubes thereof with respect to the outer tubes thereof. In an embodiment, either or both of the fifth and sixth telescoping assemblies 40E, 40F could be active. That is, either or both of the fifth and sixth telescoping assemblies 40E, 40F could include a corresponding actuator operably connected between the outer tube 52 n and the inner tube 54 n thereof for driving the inner tube thereof with respect to the outer tube thereof. Such actuators could be similar to the first actuator 58A and could be similarly connected to the corresponding outer tube 52 n and to the corresponding port pontoon mounting sleeve 34.

The first and second actuators 58A, 58B may be operated to displace the port section 14 with respect to the center section 12. More specifically, the first and second actuators 58A, 58B may be operated, for example, by extending the pistons thereof from the cylinders thereof, to extend the inner tubes 54A, 54B from the outer tubes 52A, 52B of the first and second telescoping assemblies 40A, 40B, thereby extending the port section 14 from the center section 12. Also, the first and second actuators 58A, 58B may be operated for example, by retracting the pistons thereof from the cylinders thereof, to retract the inner tubes 54A, 54B into the outer tubes 52A, 52B of the first and second telescoping assemblies 40A, 40B, thereby retracting the port section 14 toward the center section 12.

With the port section 14 in the retracted configuration, an inboard portion of the port deck 36 overlies the center deck 20. As the port section 14 is extended away from the center section 12, the port deck 36 is displaced outwardly from the center deck 20. When the port section 14 is fully extended from the center section 12, the inboard portion and inboard end of the port deck 36 may drop with respect to the center deck 20 so that the port deck and the center deck are substantially flush with one another. Also, as set forth above, the outer tubes 52A, 52B, 52E of the telescoping assemblies 40A, 40B, 40E are attached to the center section 12 at an angle so that the corresponding port pontoon 32 and deck supports 38 “drop” with respect to the center section 12 as the inner tubes 54A, 54B, 54E are extended from the outer tubes 52A, 52B, 52E of the telescoping assemblies 40A, 40B, 40E, thereby enabling the flush orientation of the port deck 36 with respect to the center deck 20 when the port section 14 is fully extended from the center section.

A ramp structure 37 may be provided in connection with either or both of the inboard end of the port deck 36 and the corresponding side edge of the center deck 20 to facilitate retraction of the port section 14 if the port deck 36 is flush with the center deck 20. More specifically, the ramp structure 37 facilitates elevation of the port deck 36 with respect to the center deck 20 to enable retraction of the port section 14 with respect to the center section 12 if the port deck is flush with the center deck when the port section is extended.

One or more rollers, guide blocks, or the like (not shown) may be provided to facilitate sliding of the port deck with respect to the center deck and to mitigate a tendency for binding therebetween.

In an embodiment, the actuators 58n could be omitted, and the port section 14 could be manually extended from and retracted toward the center section 12.

As set forth above the construction and operation of the starboard section 14′ and its connection to the center section 12 are analogous to the construction and operation of the port section 14 and its connection to the center section. As such, the construction and operation of the starboard section 14′ and its connection to the center section 12 will not be discussed in further detail herein.

Terms of orientation used herein should be construed in a relative, rather than absolute, sense unless context clearly dictates otherwise.

The present disclosure describes and shows certain illustrative embodiments of an expandable pontoon boat. Features disclosed in connection with any embodiment may be included in any other embodiment to the greatest extent possible.

While the invention has been described in connection with what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention is not to be limited to the disclosed embodiments, but on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. 

1. A pontoon boat comprising: a center frame; a port side pontoon; a port side mounting sleeve connected to the port side pontoon; a starboard side pontoon; a starboard side mounting sleeve connected to the starboard side pontoon; and a telescoping assembly cooperable with the port side mounting sleeve and the starboard side mounting sleeve, the telescoping assembly connecting the port side pontoon and the starboard side pontoon to the center frame, wherein the telescoping assembly is configured such that the port side pontoon and the starboard side pontoon are displaceable relative to the center section between a retracted position and an extended position.
 2. A pontoon boat according to claim 1, further comprising a center deck connected to the center frame.
 3. A pontoon boat according to claim 2, further comprising: a port deck support connected to the port side mounting sleeve; a port side deck connected to the port deck support; a starboard deck support connected to the starboard side mounting sleeve; and a starboard side deck connected to the starboard deck support, wherein the port side deck and the starboard side deck are displaceable with the port side pontoon and the starboard side pontoon, respectively, relative to the center deck.
 4. A pontoon boat according to claim 3, wherein in the retracted position, the port side deck and the starboard side deck at least partially overlie the center deck, and wherein port side deck and the starboard side deck are sized such that in the extended position, the port side deck and the starboard side deck are substantially flush with the center deck.
 5. A pontoon boat according to claim 1, wherein the telescoping assembly comprises: a first inner tube fixed to the port side mounting sleeve; a second inner tube fixed to the starboard side mounting sleeve; a first outer tube fixed to the center frame and slidably receiving the first inner tube; and a second outer tube fixed to the center frame and slidably receiving the second inner tube.
 6. A pontoon boat according to claim 5, further comprising: a first actuator connected to at least one of the first inner tube and the first outer tube; and a second actuator connected to at least one of the second inner tube and the second outer tube, wherein the first and second actuators are configured to extend and retract the first and second inner tubes relative to the first and second outer tubes, respectively.
 7. A pontoon boat according to claim 6, wherein the first and second actuators comprise one of a linear hydraulic actuator and a pneumatic actuator.
 8. A pontoon boat according to claim 6, wherein the first actuator comprises a first piston rod telescopically extendable from and retractable into a first cylinder, wherein a free end of the first piston rod is connected to the port side mounting sleeve, and wherein a free end of the first cylinder is connected to the first outer tube, and wherein the second actuator comprises a second piston rod telescopically extendible from and retractable into a second cylinder, wherein a free end of the second piston rod is connected to the port side mounting sleeve, and wherein a free end of the second cylinder is connected to the second outer tube.
 9. A pontoon boat according to claim 1, wherein the center frame comprises: a first longitudinal main rail; a second longitudinal main rail spaced from and generally parallel to the first longitudinal main rail; and a plurality of spaced apart and generally parallel cross members connected to the first and second longitudinal main rails.
 10. A pontoon boat according to claim 9, wherein the center frame further comprises a first side rail connected to each of the cross members at one end of the cross members and a second side rail connected to each of the cross members at an opposite end of the cross members.
 11. A pontoon boat according to claim 9, wherein the telescoping assembly comprises: a first inner tube fixed to the port side mounting sleeve; a second inner tube fixed to the starboard side mounting sleeve; a first outer tube fixed to the first longitudinal main rail and slidably receiving the first inner tube; and a second outer tube fixed to the second longitudinal main rail and slidably receiving the second inner tube.
 12. A pontoon boat according to claim 11, wherein the first and second outer tubes span a width of the center frame.
 13. A pontoon boat according to claim 9, wherein the telescoping assembly is connected to the center frame at an angle to a plane defined by the center frame.
 14. A pontoon boat according to claim 1, further comprising a center pontoon coupled with the center frame.
 15. A pontoon boat according to claim 1, further comprising a port side riser connected between the port side mounting sleeve and the port side pontoon and a starboard side riser connected between the starboard side mounting sleeve and the starboard side pontoon.
 16. A pontoon boat comprising: a center frame; a port side pontoon; a starboard side pontoon; and a plurality of telescoping assemblies cooperable with the port side pontoon and the starboard side pontoon, the telescoping assemblies connecting the port side pontoon and the starboard side pontoon to the center frame, wherein the telescoping assemblies are configured such that the port side pontoon and the starboard side pontoon are displaceable relative to the center section between a retracted position and an extended position.
 17. A pontoon boat according to claim 16, wherein the each of the plurality of telescoping assemblies comprises: an inner tube fixed to one of the port side pontoon or the starboard side pontoon; and an outer tube fixed to the center frame and slidably receiving the inner tube.
 18. A pontoon boat according to claim 17, further comprising a plurality of wear pads disposed between the inner tubes and the outer tubes of the telescoping assemblies.
 19. A pontoon boat according to claim 16, comprising at least four of the telescoping assemblies including a port side forward telescoping assembly, a port side aft telescoping assembly, a starboard side forward telescoping assembly, and a starboard side aft telescoping assembly.
 20. A pontoon boat according to claim 16, further comprising: a center deck connected to the center frame; a port deck support connected to the port side pontoon; a port side deck connected to the port deck support; a starboard deck support connected to the starboard side pontoon; and a starboard side deck connected to the starboard deck support, wherein the port side deck and the starboard side deck are displaceable with the port side pontoon and the starboard side pontoon, respectively, relative to the center deck. 